Gap sealing arangement

ABSTRACT

In order to improve the fit and the sealing effect of a sealing arrangement which is intended to seal a gap ( 2 ) between two components ( 3, 4 ), which can be moved relative to each other, and an edge of an opening ( 5 ) which is to be closed, wherein a grip rail ( 10 ), to which a holding region ( 14 ) of a profile ( 15 ) can be positively latched, can be fixed to a first one ( 3 ) of the components, wherein a sealing region ( 16 ) of the profile ( 15 ) which cooperates in a sealing manner with a second one ( 4 ) of the components is attached to the holding region ( 14 ), the said sealing region ( 16 ) is disposed laterally offset with respect to the grip rail ( 10 ) towards an inner side ( 7 ) of the gap, wherein the resultant force ( 17 ) of a deformation force which acts upon the sealing region ( 16 ) runs at least approximately through the grip rail ( 10 ). As the two components ( 3, 4 ) move closer together, the laterally offset arrangement of the said sealing region ( 16 ) serves to produce a deformation force which presses the holding region of the profile ( 15 ) more firmly into the grip rail ( 10 ), so as to ensure a durably secure fit of the profile at its installation site.

[0001] The invention relates to a sealing arrangement according to the preamble of claim 1.

[0002] In the case of a known sealing arrangement of this type (DE 199 12 176 A1), a profile part which is substantially L-shaped in cross-section and comprises an embedded reinforcement is adhered to a door frame by means of an adhesive layer. The profile part is supported beyond the adhesive layer on the door frame by cross-pieces. Instead of using the adhesive layer, the profile part can also be held on the frame by clip connections which can be produced by crimping (column 2, lines 61 to 64). This profile part is to be connected to the door frame initially by a robotal machine. In a second working step which is to be conducted preferably by hand, a profile seal is then placed with an attachment base on to an upstanding assembly limb of the profile part having a Christmas-tree profile. The profile seal is not connected on the inside to the L-shaped profile part. During operation, this can lead to visually unfavourable gaps and progressions of the profile seal.

[0003] DE 198 03 445 A1 discloses a door peripheral frame component having a gap sealing arrangement, wherein the door frame is provided with a grip rail for the holding region of a sealing profile, wherein a sealing region which cooperates with the door skirting is attached to holding region of the profile and is laterally offset with respect to the grip rail towards an inner side of the gap, and wherein a support portion of the holding region which is remote from the sealing region is supported on a corner region of the door skirting. The support portion does not form any pronounced sealing rib with respect to the comer region and when the door is in the closed state the sealing region formed as a hollow profile is pressed directly against the door frame thus bridging a gap which would otherwise be present.

[0004] DE 197 47 942 discloses a sealing arrangement for the gap between a door of a motor vehicle and the frame of the door, which sealing arrangement is characterized by a hollow sealing profile which is connected in a positive manner to the said door by way of a grip rail. Located between the sealing profile and the grip rail is a holding region which is formed with the same material as the sealing profile, and furthermore on the condition that the sealing profile and the grip rail are disposed in a flush manner with respect to each other, wherein in any event the sealing profile is not offset towards the inner side of the gap. Attached on both sides of the sealing profile are sealing lips which lie against structural parts of the door which, however, do not assume any kind of support function.

[0005] JP 10 236 163 and EP 0 058 599 disclose further sealing arrangements for sealing the gap between a door and a door skirting, in which hollow sealing profiles are positively held with the interpositioning of a holding region in a grip rail which is attached to the door or to the frame. The sealing profile, the holding region and the grip rail are disposed in a mutually flush manner in relation to a sealing force to be applied when the doors are in the closed state. The sealing profile is not disposed offset towards the inner side of the gap.

[0006] Finally, JP 59 089 220 discloses a further sealing arrangement for sealing the gap between a door and a door skirting, wherein a hollow sealing profile is held by means of a holding region in a grip rail which is fixedly connected to the door. Integrally formed on the holding region is a support portion which is supported on structural elements of the door frame, wherein the support portion and the sealing profile are disposed with the proviso that any deformation forces which occur in the closed state are substantially diverted by way of the support portion to structural parts of the doors.

[0007] Depending upon the specific production and inclusion of a grip rail, the manufacturing process of the respective sealing arrangement can be complicated. Furthermore, in some of these known sealing arrangements, it is disadvantageous that a deformation of the hollow sealing profile runs in an uncontrolled manner over wide areas.

[0008] Against this background it is the object of the invention to form a sealing arrangement of the type described in the introduction with a reliable fit and enhanced sealing effect with regard to a controlled deformation and to an improved manufacturing capability. In the case of this type of sealing arrangement, this object is achieved by the features of the characterizing part of claim 1.

[0009] The sealing region of the profile according to the invention is preferably tubular in formation, wherein by virtue of the arrangement of the sealing region which is laterally offset relative to the grip rail, the deformation force which occurs as the two components move closer to each other has the effect that the holding region of the profile is pressed ever more firmly into the grip rail. This guarantees a durably secure fit of the profile at its installation site. The penetration of moisture in the direction towards the grip rail is guaranteed by the sealing rib which lies against the said corner region. The said support rib comes into contact with the first component at the latest in the event of a sufficiently large deformation force acting upon the sealing region. This serves to support the sealing region and promote its controlled deformation under the influence of the deformation force. By virtue of the fact that the grip rail is formed from sheet metal and is attached to the first component by continuous seam welding, advantages in terms of manufacturing technology are achieved, because the grip rail can be attached to the first component easily and in a reliably automated manner. The grip rail can extend all the way around the first component. The end-side ends of the grip rails can be sealed with respect to each other, e.g. they can be welded or bridged with a permanently elastic sealing compound. Where the level of strength is sufficient, the wall thickness of the grip rail, which is formed from sheet metal, can be comparatively thin. This favours the design and dimensioning of the holding region of the profile.

[0010] In accordance with claim 2, the inner lining preferably consists of a synthetic material plate. The fact that the sealing strip lies continuously against the inner lining means that it is possible to prevent the occurrence of a visually unfavourable gap at this site.

[0011] In accordance with claim 3, a small amount of additional outlay ensures that the joint is effectively sealed, at least with respect to dust. Moreover, bridging the joint with a joint sealing lip gives a visually favourable impression.

[0012] In accordance with claim 4, it is possible to use e.g. cellular rubber with a Shore A hardness of 20 to 30.

[0013] The profile in accordance with claim 5 is preferably co-extruded in the duplex process. The soft rubber can have a Shore A hardness of 60 to 80 and the cellular rubber can have a Shore A hardness of e.g. 15 to 30. Therefore, this ensures on the one hand that the profile is held securely in the grip rail and on the other hand ensures low closing forces, because the sealing region can be deformed comparatively easily.

[0014] The formation of the grip rail in accordance with any one of claims 6 to 10 is selected in an expedient manner depending upon the particular aspects of the individual case. In each case, assembly is convenient and quick and the profile fits tightly on the grip rail.

[0015] These and further features and advantages of the invention will be explained in detail hereinunder with reference to the exemplified embodiments illustrated in the drawings, in which

[0016]FIG. 1 shows an enlarged illustration of a cross-section of a first embodiment of the sealing arrangement with the associated first and second component,

[0017] FIGS. 2 to 4 show in each case a cross-section, corresponding to FIG. 1, of other embodiments of the sealing arrangement.

[0018]FIG. 1 illustrates a sealing arrangement 1 for sealing a gap 2 between a first component 3 and a second component 4. In all of the exemplified embodiments illustrated in FIGS. 1 to 4, the first component 3 is a door and the second component 4 is an edge of an opening 5 in a motor vehicle which is to be closed. In each case, FIGS. 1 to 4 illustrate a cross-section of a roof frame as the second component 4 and a cross-section of an upper edge of the door as the first component 3. An outer side 6 and an inner side 7 of the motor vehicle are indicated.

[0019] A sheet metal grip rail 10 is attached on an upper side 8 of a door inner metal sheet 9 of the first component 3 by continuous seam welding. The grip rail 10 comprises a substantially U-shaped cross-sectional area having edge regions 11 and 12 which are drawn in towards each other and the grip rail is welded with a base 13 to the upper side 8.

[0020] A holding region 14 of a profile 15 is positively latched to the grip rail 10. A sealing region 16 of the profile 15 which cooperates in a sealing manner with the second component 4—in this case with a roof frame profile—is attached to the holding region 14. The sealing region 16 is tubular in formation and, like the holding region 14, consists of cellular rubber. The sealing region 16 is disposed laterally offset with respect to the grip rail 10 towards the inner side 7. The resultant force 17 of a deformation force acting upon the sealing region 16 runs at least approximately through the grip rail 10, as indicated by the line of action of the resultant force 17 shown by a dot-dash line.

[0021] A support portion 18 of the holding region 14 which is remote from the sealing region 16 is supported on a corner region 19 of the first component 3. The corner region 19 is created by virtue of the fact that the door inner metal sheet 9 is upwardly bent by about 90°. A door outer metal sheet 21 of the first component 3 is flanged over a free edge 20 of the door inner metal sheet 9. As a consequence, the door outer metal sheet 21 forms an edge 22 which defines a joint 23 with the opposite-lying second component 4 when the first component 3 which is formed as a door or closing element is closed. Anchored to the edge 22 is a joint sealing lip 24 which is integrally formed on the profile 15. When the closing element 3 is closed, the joint sealing lip 24 which likewise consists of cellular rubber and is provided for sealing the joint 23 lies against the second component 4. Therefore, when the closing element 3 is closed, the joint sealing lip 24 seals the joint 23 at least with respect to dust. Moreover, the joint 23 is bridged in a visually favourable manner.

[0022] The support portion 18 is provided towards the outer side 6 with three mutually parallel sealing ribs 25 which lie in a sealing manner against an inner side of the first component 3.

[0023] The profile 15 is provided with a support rib 26 between the sealing region 16 and the door inner metal sheet 9 of the first component 3. When the profile 15 is not tensioned, as illustrated in FIG. 1 despite the closed closing element 3, the support rib 26 is located at a small spaced interval from the upper side 8 of the door inner metal sheet 9. This serves the purpose that, even when the profile 15 is not tensioned, a sealing strip 27 which is integrally formed on the sealing region 16 lies under a certain degree of pre-tensioning against an inner lining 28 of the first component 3. The inner lining 28 consists of a synthetic material plate which covers the first component 3 on the inner side 7. Only when the closing element 3 is closed and a deformation force is exerted in the direction of the resultant force 17 upon the profile 15, does the support rib 26 come into contact with the upper side 8 of the door inner metal sheet 9. Consequently, in order to enhance the sealing effect of the sealing region 16, the sealing region 16 is also supported directly on the door inner metal sheet 9. This sealing effect is further enhanced by a bead 29 of the second component 4 which protrudes in the direction of the sealing region 16.

[0024] In all of the Figures, like parts are designated by like reference numerals.

[0025] In FIG. 2, the grip rail 10 comprises a substantially Z-shaped cross-sectional area, wherein a base limb 30 is attached to the door inner metal sheet 9. Preferably, this attachment can also be accomplished, as in the case of all of the embodiments, by continuous seam welding but can also be achieved in another way, e.g. by adhesion. A second limb 31 of the grip rail 10 points with its free end edge outwardly into the corner region 19 of the first component 3. Thus, the holding region 14 of the profile 15 can engage underneath the second limb 31 in the manner shown in FIG. 2 for the purpose of anchoring the profile 15 more effectively.

[0026] In the case of the exemplified embodiment as shown in FIG. 3, the grip rail 10 comprises a substantially circular ring-shaped cross-sectional area which is attached to the door inner metal sheet 9 by means of a connecting cross-piece 32, in particular it is welded thereto by continuous seam welding. In the region of the connecting cross-piece 32 the grip rail 10 is contacted by anchoring strips 33 and 34 of the holding region 14. In order to ensure that this under-clamping of the circular ring-shaped part of the grip rail 10 functions all the more effectively, the side of the grip rail 10 which is remote from the connecting cross-piece 32 is provided in the profile 15 with a free space 35 which is sickle-shaped in cross-section.

[0027] As shown in FIG. 4, the grip rail 10 comprises a substantially V-shaped cross-sectional area, wherein an apex region 36 of the grip rail 10 is attached—preferably by continuous seam welding—to the door inner metal sheet 9.

[0028] In FIG. 4, the profile 15 is co-extruded in the duplex process, on the one hand, from cellular rubber for the sealing region 16 and the joint sealing lip 24 and, on the other hand, is co-extruded from soft rubber for the holding region 14. When the profile 15 is not tensioned, as shown in FIG. 4, the supporting rib 26 is also disposed in this case at a small spaced interval from the upper side 8 of the door inner metal sheet 9. The support rib 26 only comes into contact with the upper side 8 if a specific closing force is exerted by the bead 29 upon the sealing region 16 in the direction of the resultant force 17. Preferably, the soft rubber of the holding region has a greater degree of hardness than the cellular rubber of the rest of the profile 15. In this way, the profile 15 is anchored to the first component 3 in a particularly stable manner. 

1. Sealing arrangement (1) for a gap (2) between two components (3, 4) which can be moved relative to each other, e.g. a closing element, such as e.g. a door or a hinged lid of a motor vehicle, and an edge of an opening (5) which is to be closed, wherein a grip rail (10) can be fixed to a first one (3) of the components (3, 4), wherein a holding region (14) of a profile (15) can be positively latched to the grip rail (10), and wherein a sealing region (16) of the profile (15) which cooperates in a sealing manner with a second one (4) of the components (3, 4) is attached to the holding region (14), characterized in that the sealing region (16) is disposed laterally offset with respect to the grip rail (10) towards an inner side (7) of the gap (2), that the resultant force (17) of a deformation force acting upon the sealing region (16) runs at least approximately through the grip rail (10).
 2. Sealing arrangement as claimed in claim 1, characterized in that a support portion (18) of the holding region (14) which is remote from the sealing region (16) is supported on a corner region (19) of the first component (3).
 3. Sealing arrangement as claimed in claim 2, characterized in that the support portion (18) comprises at least one sealing rib (25) which lies against the region (19).
 4. Sealing arrangement as claimed in any one of claims 1 to 3, characterized in that, between the sealing region (16) and the first component (3), the profile (15) comprises a support rib (26) which is in contact with the first component (3) at least when the closing element (3) is closed.
 5. Sealing arrangement as claimed in any one of claims 1 to 4, characterized in that the first component (3) is covered on the inside (7) with an inner lining (28), and that, between the sealing region (16) and the inner lining (28), the profile (15) comprises a sealing strip (27) which lies continuously in a sealing manner against the inner lining (28).
 6. Sealing arrangement as claimed in any one of claims 1 to 5, characterized in that when the closing element (3) is closed, the gap (2) terminates on the outside (7) in a joint (23) between the components (3, 4), that a joint sealing lip (24) which is integrally formed on the profile (15) is anchored to an edge (22) of the first component (3) adjoining the joint (23), and that, when the closing element (3) is closed, the joint sealing lip (24) lies against the second component (4) in order to seal the joint (23).
 7. Sealing arrangement as claimed in any one of claims 1 to 6, characterized in that the profile (15) consists of cellular rubber.
 8. Sealing arrangement as claimed in any one of claims 1 to 6, characterized in that the holding region (14) consists of soft rubber and the sealing region (16) consists of cellular rubber.
 9. Sealing arrangement as claimed in any one of claims 1 to 8, characterized in that the grip rail (10) is formed from sheet metal and is attached to the first component (3) by continuous seam welding.
 10. Sealing arrangement as claimed in any one of claims 1 to 9, characterized in that the grip rail (10) comprises a substantially U-shaped cross-sectional area with edge regions (11, 12) drawn in towards each other, and that the grip rail (10) is attached with a base (13) to the first component (3).
 11. Sealing arrangement as claimed in any one of claims 1 to 9, characterized in that the grip rail (10) comprises a substantially Z-shaped cross-sectional area, and that a base limb (30) of the grip rail (10) is attached to the first component (3).
 12. Sealing arrangement as claimed in claim 1 1, characterized in that a second limb (31) of the grip rail (10) points with its free end edge outwardly (6) into a corner region (19) of the first component (3).
 13. Sealing arrangement as claimed in any one of claims 1 to 9, characterized in that the grip rail (10) comprises a substantially circular ring-shaped cross-sectional area which is attached to the first component (3) by means of a connecting cross-piece (32).
 14. Sealing arrangement as claimed in any one of claims 1 to 9, characterized in that the grip rail (10) comprises a substantially V-shaped cross-sectional area, and that an apex region (36) of the grip rail (10) is attached to the first component (3). 